Main navigation

  • ICOET 2025
  • Registration
  • Lodging
  • Sponsors
  • Program
  • Presenters
  • About

Developing a correction factor to apply to animal–vehicle collision data for improved road mitigation measures

Breadcrumb

  • Home
  • ICOET 2021 Conference Program
  • Developing a correction factor to apply to animal–vehicle collision data for improved road mitigation measures
Tracy S. Lee, Miistakis Institute, Mount Royal University
Kimberly Rondeau, University of Calgary; Rob Schaufele, Miistakis Institute, Anthony P. Clevenger, Western Transportation Institute; and Danah Duke, Miistakis Institute
Mitigation / restoration
Technical Session 21: Planning Through Partnerships

Road mitigation to reduce animal–vehicle collisions (AVCs) is usually based on analysis of road survey animal carcass data. This is used to identify road sections with high AVC clusters. Large mammals that are struck and die away from a road are not recorded nor considered in these analyses, reducing our understanding of the number of AVCs and the cost–benefit of road mitigation measures.

We designed an approach in Canadian Rocky Mountains whereby citizen scientists reported animal carcasses on walking surveys along transects parallel to the highway and reported observations using a smartphone application at three sites over a 5-year period. These data were compared with traditional road survey data. We present findings from our paper in Wildlife Research that found many large mammals involved in AVCs die away from the road and are, therefore, not reported in traditional road surveys. A correction factor of 2.8 for our region can be applied to road survey data to account for injury bias error in road survey carcass data.

For large mammals, AVCs based on road survey carcass data are underestimates. To improve information about AVCs where little is known, we recommend conducting similar research to identify a correction factor to conventionally collected road survey carcass data. Identifying road mitigation sites by transportation agencies tends to focus on road sections with above threshold AVC numbers and where cost–benefit analyses deem mitigation necessary. A correction factor improves AVC estimate accuracy, improving the identification of sites appropriate for mitigation, and, ultimately, benefitting people and wildlife by reducing risks of AVCs.

animal-vehicle collision
correction factor
large mammals

Header image courtesy of Martin Gradjean -- Air Traffic Network

ICOET 2025 — International Conference On Ecology and Transportation